In addition to the ponderomotive acceleration of highly relativistic electrons at interaction of very short and very intense laser pulses, a further acceleration is derived from the interaction of these electron beams with the spontaneous magnetic fields of about 100 MG. This additional acceleration is the result of a laser-magnetic resonance acceleration (LMRA)[1] around the peak of the azimuthal magnetic field. This causes the electrons to gain energy within a laser period. Using a Gaussian laser pulse, the LMRA acceleration of the electrons depends on the laser polarization. Since this is in the resonance regime, the strong magnetic fields affect the electron acceleration considerably. The mechanism results in good collimated high energe...
A laser acceleration mechanism which utilizes a strong static, almost uniform, magnetic field togeth...
The axial evolution ofthe electromagnetic fields is solved self-consistently with the nonlinear dyna...
The acceleration of electrons by a radially polarized intense laser pulse has been studied. The axia...
Additional acceleration and collimation of relativistic electron beams by magnetic field resonance a...
Resonant acceleration of plasma electrons in combined circularly polarized Gaussian laser fields and...
A high-intensity laser beam propagating through a dense plasma drives a strong current that robustly...
Laser-induced acceleration of an electron injected initially at an angle to the direction of a circu...
A high-intensity laser beam propagating through a dense plasma drives a strong current that robustly...
Electron acceleration and short-wavelength radiation generation by an intense, short, linearly polar...
The combined role of an additional long-wavelength electromagnetic wave and a magnetic field on lase...
We present a relativistic single particle simulation of vacuum acceleration of an electron by a high...
A new electron acceleration mechanism is identified that develops when a relativistically intense la...
The paper presents a scheme of vacuum electron acceleration due to tightly focused linearly polarize...
With the development of photocathode rf electron gun, electrons with high-brightness and mono-energy...
The interaction between energetic electrons and a circularly polarized laser pulse inside an ion cha...
A laser acceleration mechanism which utilizes a strong static, almost uniform, magnetic field togeth...
The axial evolution ofthe electromagnetic fields is solved self-consistently with the nonlinear dyna...
The acceleration of electrons by a radially polarized intense laser pulse has been studied. The axia...
Additional acceleration and collimation of relativistic electron beams by magnetic field resonance a...
Resonant acceleration of plasma electrons in combined circularly polarized Gaussian laser fields and...
A high-intensity laser beam propagating through a dense plasma drives a strong current that robustly...
Laser-induced acceleration of an electron injected initially at an angle to the direction of a circu...
A high-intensity laser beam propagating through a dense plasma drives a strong current that robustly...
Electron acceleration and short-wavelength radiation generation by an intense, short, linearly polar...
The combined role of an additional long-wavelength electromagnetic wave and a magnetic field on lase...
We present a relativistic single particle simulation of vacuum acceleration of an electron by a high...
A new electron acceleration mechanism is identified that develops when a relativistically intense la...
The paper presents a scheme of vacuum electron acceleration due to tightly focused linearly polarize...
With the development of photocathode rf electron gun, electrons with high-brightness and mono-energy...
The interaction between energetic electrons and a circularly polarized laser pulse inside an ion cha...
A laser acceleration mechanism which utilizes a strong static, almost uniform, magnetic field togeth...
The axial evolution ofthe electromagnetic fields is solved self-consistently with the nonlinear dyna...
The acceleration of electrons by a radially polarized intense laser pulse has been studied. The axia...
Add to ORKG